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Clinal genomic analysis reveals strong reproductive isolation across a steep habitat transition in stickleback fish

Quiterie Haenel (), Krista B. Oke, Telma G. Laurentino, Andrew P. Hendry and Daniel Berner ()
Additional contact information
Quiterie Haenel: University of Basel
Krista B. Oke: University of Alaska Fairbanks
Telma G. Laurentino: University of Basel
Andrew P. Hendry: McGill University
Daniel Berner: University of Basel

Nature Communications, 2021, vol. 12, issue 1, 1-11

Abstract: Abstract How ecological divergence causes strong reproductive isolation between populations in close geographic contact remains poorly understood at the genomic level. We here study this question in a stickleback fish population pair adapted to contiguous, ecologically different lake and stream habitats. Clinal whole-genome sequence data reveal numerous genome regions (nearly) fixed for alternative alleles over a distance of just a few hundred meters. This strong polygenic adaptive divergence must constitute a genome-wide barrier to gene flow because a steep cline in allele frequencies is observed across the entire genome, and because the cline center closely matches the habitat transition. Simulations confirm that such strong divergence can be maintained by polygenic selection despite high dispersal and small per-locus selection coefficients. Finally, comparing samples from near the habitat transition before and after an unusual ecological perturbation demonstrates the fragility of the balance between gene flow and selection. Overall, our study highlights the efficacy of divergent selection in maintaining reproductive isolation without physical isolation, and the analytical power of studying speciation at a fine eco-geographic and genomic scale.

Date: 2021
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DOI: 10.1038/s41467-021-25039-y

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